Redox-activatable inhalable mucoadhesive proteinic nanotherapeutics for targeted treatment of lung cancer

Yeonsu Jeong, Yun Seop Shim, Yun Kee Jo, Hyung Joon Cha

Research output: Contribution to journalArticlepeer-review

Abstract

Inhalation delivery has been considered a promising choice for treating lung cancer because it can shuttle therapeutic payloads directly to cancer tissues via simple and noninvasive procedures while reducing systemic toxicity. However, its clinical application still faces challenges, especially for delivering hydrophobic chemotherapeutic drugs, due to poor absorption on mucosal tissues and limited therapeutic performance. Herein, we propose inhalable mucoadhesive proteinic nanoparticles (NPs) capable of facilitating reliable pulmonary drug delivery and redox-responsive anticancer therapeutic effects to realize noninvasive, localized treatment of lung cancer in a highly biocompatible, site-specific manner. Thiolated mussel adhesive protein (MAP)-based NPs (thMAP NPs) can be administered to target tissues via an easy and facile nebulization process due to their superior MAP-driven adhesion ability and sufficient structural integrity. Curcumin (Cur)-loaded thMAP NPs (thMAP@Cur NPs) demonstrated efficient cellular uptake through the thiol-mediated pathway and controlled the intracellular release of Cur in response to the reductive environment in cancer cells. The nebulized thMAP@Cur NPs elicited prolonged retention in lung tissue without causing any detectable adverse effects, leading to significant inhibition of metastatic lung cancer in vivo. Thus, these protein-based redox-responsive mucoadhesive NPs hold great promise as robust inhalable drug delivery platforms to achieve effective, localized treatment of pulmonary cancer and other respiratory diseases.

Original languageEnglish
Article number123004
JournalBiomaterials
Volume316
DOIs
StatePublished - May 2025

Keywords

  • Antioxidant activity
  • Inhalable drug delivery
  • Lung cancer therapy
  • Mucoadhesive proteinic nanoparticle
  • Redox-responsive nanotherapeutics

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